Miscellaneous

What is the buoyant force on the cube?

What is the buoyant force on the cube?

The buoyant force is just the difference between these two forces, so it must equal the pressure difference multiplied by the area of the top (or bottom – they have the same area). DP = rgh, where h is the distance between the top of the cube and the bottom of the cube. In other words h is the height of the cube.

What happens to the buoyant force on an object as it is lowered in water?

What happens to the buoyant force on an object as it is lowered into the water? It increases because more water is displaced. An object whose density is less than one will float in water no matter what the mass is. Steel is denser than water and yet steel ships float.

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How do you find the buoyant force of a cube?

The buoyant force is calculated by finding the weight of the fluid displaced by the body. The balloon would displace its VOLUME of fluid. It is a cube balloon, so it is easy to measure its volume. Next, multiply the volume by the weight density of the fluid and the result would be the measure of the buoyant force.

What does the buoyant force on a submerged object depend on?

The buoyant force on a submerged object depends upon the weight of the fluid displaced by the object. There is a condition in which the buoyant force of an object does equal the weight of the object.

When the buoyant force on a submerged object is equal?

The buoyant force on a submerged object is equal to the weight of the fluid displaced. This principle is useful for determining the volume and therefore the density of an irregularly shaped object by measuring its mass in air and its effective mass when submerged in water (density = 1 gram per cubic centimeter).

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What determines the buoyant force on an object?

Notice how the buoyant force only depends on the density of the fluid ρ in which the object is submerged, the acceleration due to gravity g, and the volume of the displaced fluid V f V_f Vf​V, start subscript, f, end subscript. Surprisingly the buoyant force doesn’t depend on the overall depth of the object submerged.

Why is buoyancy the same at the bottom of a can?

But the buoyancy exerted by water on the can stays more or less the same, because water is almost incompressible, so its density is more or less the same at shallow and deep water. Hence the displaced water will weight the same on the bottom and buoyancy it causes would be the same.

Can an object with low density experience buoyancy?

One thing to note – according to my textbook buoyancy is a force that happens because of hydrostatic pressure – it has nothing to do with density of the objects. So those who say then can will experience buoyancy because it is less dense are wrong I guess, that is not buoyancy.

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What happens to a can at the bottom of the ocean?

Regardless of the submersion depth, any object will lose weight equal to the weight of water it has displaced, even when held at the bottom. You confuse the hydrostatic pressure with buoyancy. Hydrostatic pressure will increase with depth, to a point that it may even crush the can in.

What happens to hydrostatic pressure as you go deeper in water?

You confuse the hydrostatic pressure with buoyancy. Hydrostatic pressure will increase with depth, to a point that it may even crush the can in. But the buoyancy exerted by water on the can stays more or less the same, because water is almost incompressible, so its density is more or less the same at shallow and deep water.